Centre for Biodiversity and Restoration Ecology, School of Biological Sciences, Victoria University of Wellington, Wellington, New Zealand.
Pacific Biosecurity, Victoria Link Limited, Victoria University of Wellington, Wellington, New Zealand.
PLoS One. 2018 Dec 31;13(12):e0209589. doi: 10.1371/journal.pone.0209589. eCollection 2018.
Social wasps are a major pest in many countries around the world. Pathogens may influence wasp populations and could provide an option for population management via biological control. We investigated the pathology of nests of apparently healthy common wasps, Vespula vulgaris, with nests apparently suffering disease. First, next-generation sequencing and metatranscriptomic analysis were used to examine pathogen presence. The transcriptome of healthy and diseased V. vulgaris showed 27 known microbial phylotypes. Four of these were observed in diseased larvae alone (Aspergillus fumigatus, Moellerella wisconsensis, Moku virus, and the microsporidian Vavraia culicis). Kashmir Bee Virus (KBV) was found to be present in both healthy and diseased larvae. Moellerella wisconsensis is a human pathogen that was potentially misidentified in our wasps by the MEGAN analysis: it is more likely to be the related bacteria Hafnia alvei that is known to infect social insects. The closest identification to the putative pathogen identified as Vavraia culicis was likely to be another microsporidian Nosema vulgaris. PCR and subsequent Sanger sequencing using published or our own designed primers, confirmed the identity of Moellerella sp. (which may be Hafnia alvei), Aspergillus sp., KBV, Moku virus and Nosema. Secondly, we used an infection study by homogenising diseased wasp larvae and feeding them to entire nests of larvae in the laboratory. Three nests transinfected with diseased larvae all died within 19 days. No pathogen that we monitored, however, had a significantly higher prevalence in diseased than in healthy larvae. RT-qPCR analysis indicated that pathogen infections were significantly correlated, such as between KBV and Aspergillus sp. Social wasps clearly suffer from an array of pathogens, which may lead to the collapse of nests and larval death.
社会性黄蜂是世界上许多国家的主要害虫。病原体可能会影响黄蜂种群,并可以通过生物防治为种群管理提供选择。我们研究了看似健康的普通黄蜂(Vespula vulgaris)的巢穴的病理学,这些巢穴显然患有疾病。首先,使用下一代测序和宏转录组分析来检查病原体的存在。健康和患病的 V. vulgaris 的转录组显示了 27 种已知的微生物类群。仅在患病的幼虫中观察到其中的 4 种(烟曲霉、莫勒氏菌 Wisconsensis、Moku 病毒和微孢子虫 Vavraia culicis)。Kashmir Bee Virus(KBV)在健康和患病的幼虫中均有发现。Moellerella wisconsensis 是一种人类病原体,我们的黄蜂中的 MEGAN 分析可能将其错误识别:更有可能是已知感染社会性昆虫的相关细菌 Hafnia alvei。与被认为是病原体的假定 Vavraia culicis 最接近的鉴定可能是另一种微孢子虫 Nosema vulgaris。使用已发表的或我们自己设计的引物进行 PCR 和随后的 Sanger 测序,证实了 Moellerella sp.(可能是 Hafnia alvei)、曲霉属、KBV、Moku 病毒和 Nosema 的身份。其次,我们通过匀浆患病的黄蜂幼虫并用它们喂养实验室中的整个幼虫巢进行感染研究。用患病幼虫转染的三个巢在 19 天内全部死亡。然而,我们监测到的任何病原体在患病幼虫中的患病率都没有明显高于健康幼虫。RT-qPCR 分析表明,病原体感染具有显著相关性,例如 KBV 和曲霉属之间。社会性黄蜂显然患有多种病原体,这可能导致巢穴崩溃和幼虫死亡。
